The new copper-aluminum transition clamp, leveraging a series of innovative processes, fundamentally addresses this vulnerability, transforming it from a fragile connection to a robust hub.
Amid the crisscrossing steel forest of high-voltage power grids, the new copper-aluminum transition clamp stands as a silent "bridge" of electricity
The rate of electrochemical corrosion is related to the current density in the contact area, and corrosion is more likely to occur where the current is concentrated.
In the copper-aluminum transition clamp copper-aluminum connection, the reasonable setting of the crimping process parameters is the core link to ensure the reliability of the connection.
In the vast network of power transmission, every connection point is crucial to the health and safety of the energy artery. The new copper-aluminum transition clamp
The large-area copper-aluminum contact design of the new copper-aluminum transition clamp effectively improves the mechanical and electrical properties of the connection through the combination of advanced materials and manufacturing processes